Immune Suppressive Landscape in the Human Esophageal Squamous Cell

Immune Suppressive Landscape in the Human Esophageal Squamous Cell

ARTICLE https://doi.org/10.1038/s41467-020-20019-0 OPEN Immune suppressive landscape in the human esophageal squamous cell carcinoma microenvironment ✉ Yingxia Zheng 1,2,10 , Zheyi Chen1,10, Yichao Han 3,10, Li Han1,10, Xin Zou4, Bingqian Zhou1, Rui Hu5, Jie Hao4, Shihao Bai4, Haibo Xiao5, Wei Vivian Li6, Alex Bueker7, Yanhui Ma1, Guohua Xie1, Junyao Yang1, ✉ ✉ ✉ Shiyu Chen1, Hecheng Li 3 , Jian Cao 7,8 & Lisong Shen 1,9 1234567890():,; Cancer immunotherapy has revolutionized cancer treatment, and it relies heavily on the comprehensive understanding of the immune landscape of the tumor microenvironment (TME). Here, we obtain a detailed immune cell atlas of esophageal squamous cell carcinoma (ESCC) at single-cell resolution. Exhausted T and NK cells, regulatory T cells (Tregs), alternatively activated macrophages and tolerogenic dendritic cells are dominant in the TME. Transcriptional profiling coupled with T cell receptor (TCR) sequencing reveal lineage con- nections in T cell populations. CD8 T cells show continuous progression from pre-exhausted to exhausted T cells. While exhausted CD4, CD8 T and NK cells are major proliferative cell components in the TME, the crosstalk between macrophages and Tregs contributes to potential immunosuppression in the TME. Our results indicate several immunosuppressive mechanisms that may be simultaneously responsible for the failure of immuno-surveillance. Specific targeting of these immunosuppressive pathways may reactivate anti-tumor immune responses in ESCC. 1 Department of Laboratory Medicine, Xin Hua Hospital, Shanghai Jiao Tong University School of Medicine, Shanghai, China. 2 Institute of Biliary Tract Diseases Research, Shanghai Jiao Tong University School of Medicine, Shanghai, China. 3 Department of Thoracic Surgery, Ruijin Hospital, Shanghai Jiao Tong University School of Medicine, Shanghai, China. 4 Key Laboratory of Systems Biomedicine (Ministry of Education), Shanghai Centre for Systems Biomedicine, Shanghai Jiao Tong University, Shanghai, China. 5 Department of Thoracic Surgery, Xin Hua Hospital, Shanghai Jiao Tong University School of Medicine, Shanghai, China. 6 Department of Biostatistics and Epidemiology, Rutgers School of Public Health, New Brunswick, NJ, USA. 7 Rutgers Cancer Institute of New Jersey, New Brunswick, NJ, USA. 8 Department of Medicine, Robert Wood Johnson Medical School, Rutgers University, New Brunswick, NJ, USA. 9 Faculty of Medical Laboratory Science, Shanghai Jiao Tong University School of Medicine, Shanghai, China. 10These authors contributed equally: Yingxia ✉ Zheng, Zheyi Chen, Yichao Han, Li Han. email: [email protected]; [email protected]; [email protected]; [email protected] NATURE COMMUNICATIONS | (2020) 11:6268 | https://doi.org/10.1038/s41467-020-20019-0 | www.nature.com/naturecommunications 1 ARTICLE NATURE COMMUNICATIONS | https://doi.org/10.1038/s41467-020-20019-0 sophageal cancer is one of the most commonly diagnosed from seven pairs of fresh, surgically removed tumors and mat- Eand deadly cancer types, especially in East Asia1. However, ched adjacent tissues of ESCC (Fig. 1a). The clinical information esophageal cancer is significantly understudied compared and hematoxylin–eosin (HE) results staining from analyzed with other common tumor types, and in the recent decades there samples were shown in Supplementary Table 1 and Supplemen- has been limited progress in therapeutics. Histologically, eso- tary Fig. 1. After removing low-quality cells, a total of 80,787 cells phageal cancer can be classified into two subtypes: adenocarci- (3248–9097 per sample) were retained for further analysis. In noma (EAC) and squamous cell carcinoma (ESCC)2. ESCC is the these cells, a median of 1170 genes per cell was detected. dominant subtype and accounts for ~90% of esophageal cancer To enable a systematic analysis of immune cell populations, we cases worldwide3. Esophageal cancer is also among the tumor normalized and pooled single-cell data from all samples and types with the highest median mutation burden, and is ranked conducted unsupervised clustering to identify distinguishable higher than kidney, head and neck, and colorectal cancer4. populations. The whole procedure was performed using Seurat Recently, PD-1 antibodies, pembrolizumab and nivolumab have v3.0 with default parameters17. We annotated these populations been used in clinical trials for subsets of patients with advanced using their canonical markers and successfully identified the ESCC for whom first-line chemotherapy failed. However, they major types of tumor-infiltrating immune cells as shown in other show only moderate improvement in the overall survival cancers, including T cells, NK cells, monocytes/macrophages, compared with chemotherapy5,6. A systematic interrogation dendritic cells (DCs), B cells, plasma cells, and mast cells, as well of infiltrating immune cells in ESCC will help to profile the as a very small fraction (1.31%) of other non-immune cells that immune status of ESCC, evaluate the application of current were mixed in with the sorted cells (Fig. 1b). The expression of checkpoint blockades, and, most importantly, lead to innovative classic markers of these cell types was consistent with the immunotherapies. annotation (Fig. 1c, d). We then analyzed “other” cluster form Single-cell transcriptome analysis of immune cells in tumors tumors, and found that most cells had copy number variations provides a way to comprehensively study these cells in a highly (CNVs), including both amplifications and deletions, suggesting complex tumor microenvironment (TME). Recently, single-cell that this cluster included tumor cells (Supplementary Fig. 2) RNA sequencing (scRNA-seq) has been applied to tumor- By comparing the percentages of each cell type in CD45+ cells infiltrating immune cells isolated from limited types of cancers, between tumor and adjacent tissues, we found an increase of including cutaneous melanoma7,8, non-small cell lung cancer9,10, T cells and monocytes/macrophages in tumors. In contrast, the hepatocellular carcinoma11,12, basal cell carcinoma13, colorectal percentages of B and NK cells were decreased (Fig. 1e and cancer14,15, and breast cancer16. These studies uncover significant Supplementary Fig. 3a). In agreement with recent studies18,we inter-tumoral and intra-tumoral heterogeneity in tumor immune found a large degree of variation in the immune composition profiles, diverse immunosuppressive populations, less-defined among tumors (Fig. 1f, g, and Supplementary Fig. 3b). T lineage immune cell subsets, and signal transduction networks in related cells were the most abundant immune cell type in most tumors, cancer types. However, such analyses have not been applied making up 30–71% of the total CD45+ cells (Fig. 1g). However, to ESCC. considering the ratios of each immune cell type to all cells To describe the immune landscape of ESCC, we used high- analyzed by flow cytometry during CD45+ cell isolation, there dimensional scRNA-seq to total immune cells isolated from seven was high variation between matched tumor and adjacent tissues, surgically removed ESCC tumors and their matched adjacent as well as among individuals (Supplementary Data 1). Seven pairs tissues. T cell receptor (TCR) sequencing was also conducted to of samples were roughly divided into two groups. There were only retrieve information on T cell clonality. Our analyses revealed minor differences between the matched adjacent and tumor inter-tumoral heterogeneity among individual ESCC patients. A tissues in three tumor-adjacent tissue pairs (S133, S134, and subgroup of ESCC tumors presented significantly increased S150). T cells made up to fewer than the 2% of total cells in these infiltration and clonal expansion of T cells, compared with their tumors. In contrast, the immune profiles of four other tumor- matched adjacent tissues. However, we identified exhausted adjacent pairs (S135, S149, S158, S159) presented a significant T cells, exhausted NK cells, regulatory T (Treg) cells, alternatively shift in a PCA, in which 6–12% of total cells were T cells in activated macrophages (M2), and tolerogenic dendritic cells tumors (Fig. 1h, i). These tumors also showed increased numbers (tDCs) in these tumors, indicating an inflamed but immune- of monocytes/macrophages, compared with other tumors and suppressed TME in ESCC. Transcriptional profile coupled TCR- adjacent tissues (Supplementary Fig. 3c). In addition, we found sequencing revealed lineage connections in CD4 and CD8 T cells inter-patient variation in biologic signatures, including hypoxia, populations. We discovered exhausted CD8 T cells showing inflammation response, and TNFA-via NFKB pathways in continuous progression from a pre-exhausted state to an lymphocytes. Interestingly, S135 and S158 showed similar gene exhausted state. Exhausted CD4, CD8 T, and NK cells were major signatures enrichment, and S133 and S134 showed similar gene proliferative cell components in the TME. Additionally, we signatures enrichment in these pathways (Supplementary identified crosstalk among macrophages and Tregs through Fig. 3d–f). ligand–receptor interactions that may contribute to the immune Next, we further validated our results for the major immune suppressive state and disease progression. Furthermore, we cell types with additional samples by flow cytometry and identified a gene signature that was significantly associated with immunohistochemistry (IHC). We found an increase in T cells the survival of patients with ESCC. Our results comprehensively

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